23 research outputs found
Management of gastrointestinal stromal tumours in the Imatinib era: a surgeon's perspective
<p>Abstract</p> <p>Background</p> <p>Surgical resection has remained the mainstay of treatment of GIST with a 5-year-survival of 28–35%. Tyrosine kinase inhibitor (Imatinib) has revolutionised the treatment of these tumours. The current research is directed towards expanding the role of this drug in the treatment of GIST. We present our experience of managing GIST in this institute.</p> <p>Methods</p> <p>This is a case note study of patients identified from a prospectively kept database from January 2000 to August 2007.</p> <p>Results</p> <p>16 patients were diagnosed with GIST. The median age was 66 years (range 46 to 82) and the male to female ratio was 9:7. Eleven patients underwent surgery, 9 of which had R0 resection (2 laparoscopic, 1 converted to open), one had an open biopsy and one had a debulking procedure. 3 patients were inoperable and 2 were found to be unfit for surgery. Five patients received Imatinib (2 postoperatively). The risk assessment based on morphological criteria showed that 4 patients had low, 4 had intermediate and 8 had high malignant potential. The median follow up was for 12 months (range 3–72); 2 patients died of unrelated causes at 6 and 9 months after diagnosis.</p> <p>Conclusion</p> <p>Most GISTs can be managed effectively using existing protocols. However currently there is no evidence based guidance available on the management of GIST in the following situations-role of debulking surgery, the follow up of benign tumours not requiring surgical resection and role of laparoscopic surgery. Further research is needed to answer these questions.</p
Acquired Adult Aerodigestive Fistula: Classification and Management
BACKGROUND: Acquired aerodigestive fistulae (ADF) are rare, but associated with a high mortality rate. We present our experience of the diagnosis, management and outcomes of patients with ADFs treated at a tertiary centre. Utilising our findings, we propose an anatomical classification system, demonstrating how specific features of an ADF may determine management. METHODS: A clinical database was searched and 48 patients with an ADF were identified. A classification system was developed based on anatomical location of the ADF and differences in clinico-pathological features based on this categorisation were performed, with the chi-squared test used for inferential analyses and Kaplan-Meier curves with log-rank test to assess survival. RESULTS: Twenty (41.6%) patients developed an ADF secondary to malignancy, with previous radiotherapy (18.7%), post-operative anastomotic dehiscence and endotherapy (14.6% each) representing other causes. Thirty-one patients were managed with tracheal and/or oesophageal stents and eight underwent surgical repair. The classification system demonstrated benign causes of ADF were either proximally or distally sited, whilst a malignant cause resulted in mid-tracheal fistulae (p = 0.001), with the latter associated with poorer survival. ADFs over 20 mm in size were associated with poor survival (p = 0.011), as was the use of previous radiotherapy. Proximal and distal ADFs were associated with improved survival (p = 0.006), as were those patients managed surgically (p = 0.001). CONCLUSION: By classifying ADFs, we have demonstrated that anatomical location correlates with the size, history of malignancy, previous radiotherapy and aetiology of ADF, which can affect management. The proposed classification system will aid in formulating multi-modality individualised treatment plans
Loss associated with subtractive health service change: The case of specialist cancer centralization in England
OBJECTIVE: Major system change can be stressful for staff involved and can result in 'subtractive change' - that is, when a part of the work environment is removed or ceases to exist. Little is known about the response to loss of activity resulting from such changes. Our aim was to understand perceptions of loss in response to centralization of cancer services in England, where 12 sites offering specialist surgery were reduced to four, and to understand the impact of leadership and management on enabling or hampering coping strategies associated with that loss. METHODS: We analysed 115 interviews with clinical, nursing and managerial staff from oesophago-gastric, prostate/bladder and renal cancer services in London and West Essex. In addition, we used 134Â hours of observational data and analysis from over 100 documents to contextualize and to interpret the interview data. We performed a thematic analysis drawing on stress-coping theory and organizational change. RESULTS: Staff perceived that, during centralization, sites were devalued as the sites lost surgical activity, skills and experienced teams. Staff members believed that there were long-term implications for this loss, such as in retaining high-calibre staff, attracting trainees and maintaining autonomy. Emotional repercussions for staff included perceived loss of status and motivation. To mitigate these losses, leaders in the centralization process put in place some instrumental measures, such as joint contracting, surgical skill development opportunities and trainee rotation. However, these measures were undermined by patchy implementation and negative impacts on some individuals (e.g. increased workload or travel time). Relatively little emotional support was perceived to be offered. Leaders sometimes characterized adverse emotional reactions to the centralization as resistance, to be overcome through persuasion and appeals to the success of the new system. CONCLUSIONS: Large-scale reorganizations are likely to provoke a high degree of emotion and perceptions of loss. Resources to foster coping and resilience should be made available to all organizations within the system as they go through major change
Implementing major system change in specialist cancer surgery: The role of provider networks
Objective: Major system change (MSC) has multiple, sometimes conflicting, goals and involves implementing change across a number of organizations. This study sought to develop new understanding of how the role that networks can play in implementing MSC, using the case of centralization of specialist cancer surgery in London, UK. Methods: The study was based on a framework drawn from literature on networks and MSC. We analysed 100 documents, conducted 134 h of observations during relevant meetings and 81 interviews with stakeholders involved in the centralization. We analysed the data using thematic analysis. Results: MSC in specialist cancer services was a contested process, which required constancy in network leadership over several years, and its horizontal and vertical distribution across the network. A core central team composed of network leaders, managers and clinical/manager hybrid roles was tasked with implementing the changes. This team developed different forms of engagement with provider organizations and other stakeholders. Some actors across the network, including clinicians and patients, questioned the rationale for the changes, the clinical evidence used to support the case for change, and the ways in which the changes were implemented. Conclusions: Our study provides new understanding of MSC by discussing the strategies used by a provider network to facilitate complex changes in a health care context in the absence of a system-wide authority
Centralisation of specialist cancer surgery services in two areas of England: the RESPECT-21 mixed-methods evaluation
Background:
Centralising specialist cancer surgical services is an example of major system change. High-volume centres are recommended to improve specialist cancer surgery care and outcomes.
Objective:
Our aim was to use a mixed-methods approach to evaluate the centralisation of specialist surgery for prostate, bladder, renal and oesophago-gastric cancers in two areas of England [i.e. London Cancer (London, UK), which covers north-central London, north-east London and west Essex, and Greater Manchester Cancer (Manchester, UK), which covers Greater Manchester].
Design:
Stakeholder preferences for centralising specialist cancer surgery were analysed using a discrete choice experiment, surveying cancer patients (n = 206), health-care professionals (n = 111) and the general public (n = 127). Quantitative analysis of impact on care, outcomes and cost-effectiveness used a controlled before-and-after design. Qualitative analysis of implementation and outcomes of change used a multisite case study design, analysing documents (n = 873), interviews (n = 212) and non-participant observations (n = 182). To understand how lessons apply in other contexts, we conducted an online workshop with stakeholders from a range of settings. A theory-based framework was used to synthesise these approaches.
Results:
Stakeholder preferences – patients, health-care professionals and the public had similar preferences, prioritising reduced risk of complications and death, and better access to specialist teams. Travel time was considered least important. Quantitative analysis (impact of change) – only London Cancer’s centralisations happened soon enough for analysis. These changes were associated with fewer surgeons doing more operations and reduced length of stay [prostate –0.44 (95% confidence interval –0.55 to –0.34) days; bladder –0.563 (95% confidence interval –4.30 to –0.83) days; renal –1.20 (95% confidence interval –1.57 to –0.82) days]. The centralisation meant that renal patients had an increased probability of receiving non-invasive surgery (0.05, 95% confidence interval 0.02 to 0.08). We found no evidence of impact on mortality or re-admissions, possibly because risk was already low pre-centralisation. London Cancer’s prostate, oesophago-gastric and bladder centralisations had medium probabilities (79%, 62% and 49%, respectively) of being cost-effective, and centralising renal services was not cost-effective (12% probability), at the £30,000/quality-adjusted life-year threshold. Qualitative analysis, implementation and outcomes – London Cancer’s provider-led network overcame local resistance by distributing leadership throughout the system. Important facilitators included consistent clinical leadership and transparent governance processes. Greater Manchester Cancer’s change leaders learned from history to deliver the oesophago-gastric centralisation. Greater Manchester Cancer’s urology centralisations were not implemented because of local concerns about the service model and local clinician disengagement. London Cancer’s network continued to develop post implementation. Consistent clinical leadership helped to build shared priorities and collaboration. Information technology difficulties had implications for interorganisational communication and how reliably data follow the patient. London Cancer’s bidding processes and hierarchical service model meant that staff reported feelings of loss and a perceived ‘us and them’ culture. Workshop – our findings resonated with workshop attendees, highlighting issues about change leadership, stakeholder collaboration and implications for future change and evaluation.
Limitations:
The discrete choice experiment used a convenience sample, limiting generalisability. Greater Manchester Cancer implementation delays meant that we could study the impact of only London Cancer changes. We could not analyse patient experience, quality of life or functional outcomes that were important to patients (e.g. continence).
Future research:
Future research may focus on impact of change on care options offered, patient experience, functional outcomes and long-term sustainability. Studying other approaches to achieving high-volume services would be valuable.
Study registration:
ational Institute for Health and Care Research (NIHR) Clinical Research Network Portfolio reference 19761
How to Cost the Implementation of Major System Change for Economic Evaluations: Case Study Using Reconfigurations of Specialist Cancer Surgery in Part of London, England.
BACKGROUND: Studies have been published regarding the impact of major system change (MSC) on care quality and outcomes, but few evaluate implementation costs or include them in cost-effectiveness analysis (CEA). This is despite large potential costs of MSC: change planning, purchasing or repurposing assets, and staff time. Implementation costs can influence implementation decisions. We describe our framework and principles for costing MSC implementation and illustrate them using a case study. METHODS: We outlined MSC implementation stages and identified components, using a framework conceived during our work on MSC in stroke services. We present a case study of MSC of specialist surgery services for prostate, bladder, renal and oesophagogastric cancers, focusing on North Central and North East London and West Essex. Health economists collaborated with qualitative researchers, clinicians and managers, identifying key reconfiguration stages and expenditures. Data sources (n = approximately 100) included meeting minutes, interviews, and business cases. National Health Service (NHS) finance and service managers and clinicians were consulted. Using bottom-up costing, items were identified, and unit costs based on salaries, asset costs and consultancy fees assigned. Itemised costs were adjusted and summed. RESULTS: Cost components included options appraisal, bidding process, external review; stakeholder engagement events; planning/monitoring boards/meetings; and making the change: new assets, facilities, posts. Other considerations included hospital tariff changes; costs to patients; patient population; and lifetime of changes. Using the framework facilitated data identification and collection. The total adjusted implementation cost was estimated at £7.2 million, broken down as replacing robots (£4.0 million), consultancy fees (£1.9 million), staff time costs (£1.1 million) and other costs (£0.2 million). CONCLUSIONS: These principles can be used by funders, service providers and commissioners planning MSC and researchers evaluating MSC. Health economists should be involved early, alongside qualitative and health-service colleagues, as retrospective capture risks information loss. These analyses are challenging; many cost factors are difficult to identify, access and measure, and assumptions regarding lifetime of the changes are important. Including implementation costs in CEA might make MSC appear less cost effective, influencing future decisions. Future work will incorporate this implementation cost into the full CEAs of the London Cancer MSC. TRIAL REGISTRATION: Not applicable
The surgical management of pancreaticoduodenal tumours in multiple endocrine neoplasia type 1
A 48-year-old man was admitted under the care of urologists with acute renal failure and septicaemia secondary to pyelonephritis. Upon investigation, he was found to have renal stone disease secondary to a parathyroid adenoma. Further tests revealed high pituitary hormone and gastrin values, confirming the diagnosis of multiple endocrine neoplasia type 1 (MEN 1) and Zollinger–Ellison syndrome. Soon after this he experienced a series of renal complications due to his renal stone disease and multiple complications of his gastrinoma, including two gastrointestinal perforations and three episodes of significant upper gastrointestinal bleeds (two of which required laparotomies), and a full length oesophageal stricture—all within the span of 9 months. His complications were managed appropriately and the oesophageal stricture was treated with a full length metallic stent. He was discharged home in a reasonably good condition with normal swallowing, but unfortunately died of aspiration pneumonia 3 weeks later
The surgical management of non-malignant aerodigestive fistula
Abstract Background Acquired aerodigestive fistula (ADF) are rare, but associated with significant morbidity. Surgery affords the best prospect of cure. We present our experience of the surgical management of ADFs at a specialist unit, highlighting operative techniques, challenges and assess clinical outcomes following intervention. We also illustrate findings of a Hospital Episodes Statistics search for ADFs. Methods A prospectively-maintained database was searched to identify all patients diagnosed with an ADF who were managed at our institution. Of 48 patients with an ADF, eight underwent surgical intervention. Results Four patients underwent an exploration of the ADF with primary repair of the defect. Two of these patients had proximal ADFs, amenable to repair through a neck incision, and two required a thoracotomy. Two patients suffered fistulae secondary to endoscopic therapy and underwent oesophageal exclusion surgery, with subsequent staged reconstruction. Two patients with previous Tuberculosis had a lung segmentectomy and lobectomy respectively, and a further patient in remission after treatment for lymphoma underwent oesophageal resection with synchronous reconstruction. Three patients suffered a complication, with one post-operative mortality. The remaining seven patients all achieved normal oral alimentation, with no evidence of ADF recurrence at a median follow-up of 32Â months. Conclusions Surgery to manage ADFs is effective in restoring normal alimentation and alleviates soiling of the airway, with a very low risk of recurrence. Several operative techniques can be utilised dependent on the features of the ADF. Early referral to specialist units is advocated, where the expertise to facilitate the complete management of patients is present, within a multi-disciplinary setting